Direct Cryptographic Computation of the Cosmological Constant   $\Omega_\Lambda$

Charles Kirkham Rhodes

arXiv:1212.5941·physics.gen-ph·December 27, 2012

Direct Cryptographic Computation of the Cosmological Constant $\Omega_\Lambda$

Charles Kirkham Rhodes

PDF

Open Access

TL;DR

This paper presents a novel cryptographic method to compute the cosmological constant {5} using a prime modulus, aligning with observational data and the flat universe model.

Contribution

It introduces a cryptographic approach to determine the cosmological constant based on a physically anchored prime modulus, linking cryptography with cosmology.

Findings

01

Cryptographic computation matches observational data.

02

The method confirms a flat universe model.

03

{5} is identified as a symmetry point in the system.

Abstract

A direct cryptographic computation of the Cosmological Constant {\Omega}{\Lambda} based solely on a physically anchored prime modulus that stands in full agreement with observational data on {\Omega}{\Lambda} and {\Omega}m and the conclusion of a flat universe ({\Omega}{\Lambda}+{\Omega}m=1.0) is demonstrated. The simplification derives from the fact that {\Omega}{\Lambda} defines the symmetry point of the cryptographic system.

Peer Reviews

No public reviews on file for this paper yet. If you reviewed it on a platform where reviews are public (OpenReview, ICLR, NeurIPS, ICML), you can paste yours below so the community can read it here.

Videos

No videos yet. Explain this paper in a talk, walkthrough, or lecture? Add one.

Taxonomy

TopicsCosmology and Gravitation Theories · Computational Physics and Python Applications · Particle physics theoretical and experimental studies